D-fructose-[UL-13C6,UL-d7]

D-fructose-[UL-13C6UL-d7], a specialized variant of fructose with distinct labeling, finds diverse applications in scientific research. Here are the key applications of D-fructose-[UL-13C6UL-d7]:

Isotope Tracing in Metabolism: Scientists leverage D-fructose-[UL-13C6UL-d7] to unravel intricate metabolic pathways by tracing the incorporation of labeled carbon and deuterium atoms. This method sheds light on the journey of fructose within cellular metabolism, encompassing glycolysis and lipid biosynthesis. Through the analysis of metabolic fluxes, researchers gain deeper insights into disease conditions like diabetes and obesity, peering into the complexities of metabolic regulation.

Nutritional Studies: In the realm of nutritional science, D-fructose-[UL-13C6UL-d7] serves as a key tool for exploring how the body processes different sugars. By meticulously tracking labeled fructose, scientists compare its metabolic routes with those of glucose and sucrose. This data plays a vital role in formulating dietary guidelines and deciphering the implications of fructose consumption on human health, enhancing our understanding of metabolic interactions and their impact on well-being.

Pharmaceutical Research: Within pharmaceutical investigations, D-fructose-[UL-13C6UL-d7] emerges as a valuable resource for developing and evaluating drugs targeting metabolic pathways. By employing this labeled compound, scientists can closely monitor the effects of pharmaceutical interventions on fructose metabolism at a granular level. This approach aids in unraveling drug mechanisms and potential side effects, paving the way for more precise and efficacious treatments, revolutionizing the landscape of pharmaceutical research.

Plant Physiology: In the domain of plant biology, D-fructose-[UL-13C6UL-d7] plays a pivotal role in exploring fructose metabolism within plant systems. Understanding the intricacies of fructose utilization in plants informs strategies to boost crop yields and enhance stress resilience. The labeled fructose facilitates meticulous tracking of carbon flow through photosynthesis and other metabolic pathways, providing valuable insights into plant growth dynamics and developmental processes, reshaping our understanding of plant physiology.